A resist underlayer film that exhibits removability and preferably solubility only in wet etching reagent solutions, while exhibiting good resistance to resist developers that are resist solvents or aqueous alkali solutions. The composition for forming a resist underlayer film includes a dicyanostyryl group-bearing polymer (P) or dicyanostyryl group-bearing compound (C) and includes solvent, and does not contain a protonic acid curing catalyst and does not contain an alkylated aminoplast crosslinking agent derived from melamine, urea, benzoguanamine, or glycoluril.

A resist underlayer film that exhibits removability and preferably solubility only in wet etching reagent solutions, while exhibiting good resistance to resist developers that are resist solvents or aqueous alkali solutions. The composition for forming a resist underlayer film includes a dicyanostyryl group-bearing polymer (P) or dicyanostyryl group-bearing compound (C) and includes solvent, and does not contain a protonic acid curing catalyst and does not contain an alkylated aminoplast crosslinking agent derived from melamine, urea, benzoguanamine, or glycoluril.

A photoresist underlayer composition, comprising: a first polymer comprising a crosslinkable group; a second polymer comprising: a first repeating unit comprising a repeating unit comprising a photoacid generator, and a second repeating unit comprising a hydroxy-substituted C.sub.1-30 alkyl group, a hydroxy-substituted C.sub.3-30 cycloalkyl group, or a hydroxy-substituted C.sub.6-30 aryl group; an acid catalyst; and a solvent.

A photoresist underlayer composition, comprising: a first polymer comprising a crosslinkable group; a second polymer comprising: a first repeating unit comprising a repeating unit comprising a photoacid generator, and a second repeating unit comprising a hydroxy-substituted C.sub.1-30 alkyl group, a hydroxy-substituted C.sub.3-30 cycloalkyl group, or a hydroxy-substituted C.sub.6-30 aryl group; an acid catalyst; and a solvent.

As described herein, photosensitive composition comprises RSnL.sub.3, where R is a hydrocarbyl ligand with 1-20 carbon atoms and one or more silicon and/or germanium heteroatoms and L is an acetylide ligand (—C≡CA, where A is a silyl group with 0 to 6 carbon atoms or an organo group with 1 to 10 carbon atoms). Methods are described wherein photosensitive compositions are synthesized by reacting RX, where X is a halide, and MSnL.sub.3, where M is an alkali metal, alkali earth metal or a pseudo-alkali earth metal, L is an acetylide or a dialkylamide. The radiation sensitive compositions are effective for radiation based patterning, such as with EUV light.

As described herein, photosensitive composition comprises RSnL.sub.3, where R is a hydrocarbyl ligand with 1-20 carbon atoms and one or more silicon and/or germanium heteroatoms and L is an acetylide ligand (—C≡CA, where A is a silyl group with 0 to 6 carbon atoms or an organo group with 1 to 10 carbon atoms). Methods are described wherein photosensitive compositions are synthesized by reacting RX, where X is a halide, and MSnL.sub.3, where M is an alkali metal, alkali earth metal or a pseudo-alkali earth metal, L is an acetylide or a dialkylamide. The radiation sensitive compositions are effective for radiation based patterning, such as with EUV light.

A photosensitive resin composition comprising (A) a silicone resin comprising recurring units having formula (a1) and recurring units having formula (b1), (B) a filler, and (C) a photoacid generator is coated onto a substrate to form a photosensitive resin coating which can be processed into a fine pattern in thick film form, has improved film properties like crack resistance, and is reliable as protective film. ##STR00001##

A photosensitive resin composition comprising (A) a silicone resin comprising recurring units having formula (a1) and recurring units having formula (b1), (B) a filler, and (C) a photoacid generator is coated onto a substrate to form a photosensitive resin coating which can be processed into a fine pattern in thick film form, has improved film properties like crack resistance, and is reliable as protective film. ##STR00001##

The present application provides a backplane unit, a manufacturing method thereof, and a display device. The manufacturing method includes the following steps: forming a photoresist layer on an array substrate; performing exposure on at least a portion of the photoresist layer corresponding to a light-emitting element; forming a light-shielding layer on at least a side of the photoresist layer away from the array substrate, wherein the light-shielding layer exposes at least a side portion of the light-emitting element; and laterally stripping the photoresist layer on the light-emitting element with a stripping solution to obtain the backplane unit.

The present application provides a backplane unit, a manufacturing method thereof, and a display device. The manufacturing method includes the following steps: forming a photoresist layer on an array substrate; performing exposure on at least a portion of the photoresist layer corresponding to a light-emitting element; forming a light-shielding layer on at least a side of the photoresist layer away from the array substrate, wherein the light-shielding layer exposes at least a side portion of the light-emitting element; and laterally stripping the photoresist layer on the light-emitting element with a stripping solution to obtain the backplane unit.